Researchers in Dr. Mark Davis' lab have developed a patented method to perform multi-parametric phenotypic analysis and T cell receptor (TCR) sequencing from single sorted T cells.
Researchers in Prof. Mark Kay's laboratory have developed a robust vector that combines the ease of plasmid preparation with the stable expression achieved by minicircle vectors.
An optical switch includes a microresonator comprising a plurality of nanoparticles. The microresonator is configured to receive signal light having a signal wavelength and to receive a pump pulse having a pump wavelength.
The multiple drug resistant variant, MES-SA/Dx5, was established from the human uterine sarcoma cell line, MES-SA, which were grown in the presence of increasing concentrations of doxorubicin.
Dr. Mark Kay and colleagues have created antibiotic-selectable, non-silencing plasmid vectors that can be prepared by conventional methods and provide persistent high levels of transgene expression.
Researchers in Prof. Mark Schnitzer's laboratory have developed a two-photon scanning microscope for imaging neural activity in a 2x2mm field of view while maintaining a fast scanning rate (~10Hz image update frequency).
Stanford researchers have developed a targeted therapy for Alzheimer's disease that focuses on inhibiting the spread of tau protein, a key factor in disease progression.
The Light Field Microscopy (“LFM”) is a patented system that enables rapid acquisition of images to be virtually analyzed at any time in the future from different viewpoints or focus adjustments.
Stanford researchers have developed a new technology to create a programmable yet low power processing core targeting imaging systems. This core is built around a 2D-stencil processing data-path.
Researchers in Prof. Gerald Crabtree's laboratory have produced a mouse allowing high-throughput screening for activity and inhibition of virtually any chromatin modifier in any murine tissue.
Researchers in Prof. Mark Kay's laboratory have developed variant AAV (adeno-associated virus) vectors with specificity and high transduction efficiency for pancreatic alpha- and beta- islet cells.
Stanford inventors have engineered an adeno-associated virus (AAV) variant on the existing LK03 platform that enables this highly efficient primate-specific serotype for use in rodent preclinical studies.
A team of Stanford researchers have identified a set of biomarkers that could be used to recognize patients with age-related declines in their immune function.
In high-speed serial links, most receivers use decision feedback equalization to deal with channel loss. While this corrects for the effect of channel dispersion, it does not take into account the dispersed energy in making the decision about each bit.